Animal Relocation System and Method

ABSTRACT

An animal relocation system and method comprising a perimeter net system a trapping net system, and a flushing device, wherein the flushing device channels the animal through the perimeter net system and into the trapping net.

BACKGROUND OF THE INVENTION Field of the Invention

This invention relates to a system and method of animal relocation. Morespecifically, this invention relates to a system and method of animalrelocation for animals located inside an enclosed structure using a netsystem and various flushing techniques.

Description of the Background Art

Any place of business that sells food or medicine has an interest inpreventing wildlife from entering and either eating its goods orcontaminating its goods. Such contamination can have serious healthimplications for the business' customers. Similarly, there are FDAprograms, such as the Retail Food Safety Initiative, and local healthdepartment requirements in place to reduce the amount of foodborneillness in this country.

Animals such as birds tend to search for areas to roost that are high upand away from predators. The rafters of big box stores, warehouses, andother structures containing exposed support beams provide areas insideof those types of structures that make for preferred bird roostingareas. Birds may also take up residence in buildings with drop ceilings.However, the presence of a bird inside the structure interferes with thewelfare of the food and medicine inside these structures whichnecessitates removal of the bird. These structures can have largefootprints that can range from a couple thousand to over a millionsquare feet. Without the proper technique, it could take several hoursor even days to remove a bird from the structure.

There are many known techniques used to capture birds. Traps contain thepossibility of harming the bird and all efforts should be made whencapturing a wild animal to produce the least amount of harm. Using loudnoises or impersonating the bird's natural predators may also scare thebird into leaving if the overall area is small enough; otherwise, thebird will simply move to another roost and continue troubling thestructure. Nets, such as mist nets, remove a large chance of harming theanimal but it can be difficult to get the bird into the net withoutconsiderable effort. The present system and method describe a techniqueusing nets that quickly and painlessly results in the capture of a birdstuck inside a structure.

Different species of birds that tend to enter structures includesparrows, wren, starlings, mockingbirds, and finches, among others. Eachspecies of bird has different flight and personality characteristics.Sparrows can be aggressive and can appear in groups. Wrens tend to runin pairs and stay low, generally on the floor, as they are notaccustomed to being in high places unless there is cover. Starlings arecarnivores, meaning they tend to stay near packaged meat when indoors,and are smart problem solvers with great vision who can identify nets.Mockingbirds eat fruit and have simple flight paths but are not afraidof humans or other species. Finches are extremely difficult to catchbecause they have great eyesight and can stop full flight in midairwhile looking for a way out or hiding spot. Each bird has its ownidiosyncrasies and requires individual handling. The present system andmethod provides a streamlined approach to make it easier to catch anytype of bird residing within an enclosed structure.

It is an object of this invention to provide an improvement whichovercomes the aforementioned inadequacies of prior methods and providesan improvement which is a significant contribution to the advancement ofbird relocation art.

Another object of this invention is to provide a system and method forrelocating birds residing within a structure.

Another object of this invention is to provide a system and method forrelocating birds which will greatly reduce the likelihood of harm thatcould be inflicted on the bird.

Another object of this invention is to provide a system and method forrelocating birds which greatly reduces the time it takes to remove abird from a large enclosed structure.

Another object of this invention is to provide a system and method forrelocating birds to increase compliance with Food and DrugAdministration food safety regulations and reduce the health hazardsassociated with wild birds.

Another object of this invention is to provide a conservation-sensitivebird relocation system and method.

The foregoing has outlined some of the pertinent objects of theinvention. These objects should be construed to be merely illustrativeof some of the more prominent features and applications of the intendedinvention. Many other beneficial results can be attained by applying thedisclosed invention in a different manner or modifying the inventionwithin the scope of the disclosure. Accordingly, other objects and afuller understanding of the invention may be had by referring to thesummary of the invention and the detailed description of the preferredembodiment in addition to the scope of the invention defined by theclaims taken in conjunction with the accompanying drawings.

SUMMARY OF THE INVENTION

For the purpose of summarizing this invention, this invention comprisesan animal relocation system and method comprising at least one enclosedbuilding, an animal, at least one perimeter net system comprisingbetween one and two nets and further comprising, a first telescopingpole having a first end and a second end, the first end of thetelescoping pole having a hook, at least one removable connectorattached to the hook, a plurality of connectors attaching a net having afirst net side and a second net side to a rope and a pulley at the firstnet side, the rope and pulley connected to a support and a support beamby a cleat, a second telescoping pole having a first end and a secondend connected to the first telescoping pole by a plurality of connectorsattached to the net, and at least one trapping net system furthercomprising between one and three nets arranged to force the animal intothe perimeter net system through use of a flushing device.

The disclosed system and method has several important advantages. Forexample, the disclosed system and method allows for the humane retrievaland relocation of birds within an enclosed structure. This system andmethod also greatly reduces the time necessary to relocate the bird.

Another advantage is that the disclosed system and method can bemodified based on the size of the enclosed building where the animal islocated.

Another advantage is that the disclosed system and method can be used inbuildings as large as one million square feet or larger.

Another advantage is that the disclosed system and method essentiallycuts the area inside an enclosure needed to capture an animal by half.

Another advantage is that the disclosed system and method reduces thetime necessary to capture and release an animal inside and enclosedbuilding.

Another advantage is that the disclosed system and method can bemodified based on the animal currently in the enclosed building sincedifferent animals have different movement tendencies.

Another advantage is the disclosed system and method provides for animproved animal capture procedure whereby the space the animal couldescape during an attempted capture is greatly lessened due to thearrangement of the perimeter net system and trapping net system.

Another advantage is the disclosed system and method increasescompliance with FDA food safety regulations in enclosures where saidregulations apply.

Another advantage is the disclosed system and method reduces healthhazards from animals being present in an enclosed building.

Another advantage is the disclosed system and method improves thesecurity of food resources in those enclosed buildings where food ispresent.

Another advantage is the disclosed system and method is a humaneconservation-sensitive animal removal technique.

The foregoing has outlined rather broadly the more pertinent andimportant features of the present invention in order that the detaileddescription of the invention that follows may be better understood sothat the present contribution to the art can be more fully appreciated.Additional features of the invention will be described hereinafter whichform the subject of the claims of the invention. It should beappreciated by those skilled in the art that the conception and thespecific embodiment disclosed may be readily utilized as a basis formodifying or designing other structures for carrying out the samepurposes of the present invention. It should also be realized by thoseskilled in the art that such equivalent constructions do not depart fromthe spirit and scope of the invention as set forth in the appendedclaims.

BRIEF DESCRIPTION OF THE DRAWINGS

For a fuller understanding of the nature and objects of the invention,reference should be had to the following detailed description taken inconnection with the accompanying drawings in which:

FIG. 1 is a flowchart showing the steps of the proposed method.

FIG. 2 is a layout of an enclosure employing the preferred net setup.

FIG. 3 is a layout of an enclosure employing an alternative net setup.

FIG. 4 is a perspective view of one of the nets used in the system.

FIG. 5 is a close-up perspective view of the one of the nets used in thesystem

FIG. 6 is a front view of the flushing device.

FIG. 7 is perspective view of a net as used in the system trapping ananimal within an enclosure.

Similar reference characters refer to similar parts throughout theseveral views of the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

A animal relocation system 10 and method is shown in the flowchart ofFIG. 1. The relocation system 10 comprises a perimeter net system 12 anda trapping net system 14. Each net system comprises at least one net 16attached to a telescoping pole 18 ending at a distal end 20 with a hook22. The hook has a removable connector 24 which connects a rope 26 andpulley 28 forming a rope and pulley system 30 having at least oneconnector 32 to connect the net 16 to the telescoping pole 18. The ropeand pulley system 30 are secured to a support, preferably by a cleat orsimilar means.

The method generally comprises first determining the square footage ofthe enclosure 36 so the proper setup is installed 100, installing theperimeter net system 12 of the animal relocation system 10 based on thelayout of the enclosure 36 and the square footage determination 200,installation generally comprising for each net 16 attaching the net 16to the rope and pulley system 30 using the connectors 32, 210, attachingthe hook 22 to a hanging member 40 or portion of ceiling 42, 220, andthen lifting the net 16 into position 230, using a flushing device 46 todrive the animal 60 toward a net 16, 300, trapping the animal 60 withina net 16, 400, and then releasing the animal 60 to safety 500. Thehanging member 40 can be a rafter, beam, truss, or other similarsupport.

As seen in FIG. 2, an enclosure 36 over 75,000 square feet can use thesetup disclosed. Preferably, the perimeter net system 12 is set uparound the perimeter of the enclosure 36. The trapping net system 14 onthe interior of the enclosure 36 so as to reduce the space the animal 60can traverse while the capture attempt is occurring. This preferredsetup is also known as the “2:3:5” system because of how the perimeternet system 12 and trapping net system 14 are setup. The setup is named“2:3:5” because it preferably uses two nets for the perimeter net system12 and three nets for the trapping net system 14 for a total of fivenets. By placing the perimeter net system 12 along the outer perimeterof the enclosure 36, the escape routes for the animal 60 are reduced andthe animal 60 can be funneled into the trapping net system 14. Thearrangement of the trapping net system 14 is customizable and modularfor enclosures 36 of differing layouts.

As seen in FIG. 3, an alternative setup can be used for an enclosure 36less than 75,000 square feet. The perimeter net system 12 is again setup on the perimeter of the enclosure 36 and the trapping net system 14is set up on one side of the enclosure 36 to again reduce the space theanimal 60 can traverse while the capture attempt is occurring. Thisalternative setup is also known as the “1:1:3” system because of how theperimeter net system 12 and the trapping net system 14 are setup. Morespecifically, the “1:1:3” system has two nets 16 on the outer perimeterof the enclosure 36, with one net 16 on opposite sides of the enclosure36, and one net 16 for the trapping net system 14 placed based on thelayout of the enclosure 36 so as to efficiently capture the animal 60.

FIGS. 4 and 5 show one net 16, telescoping pole 18 and rope and pulleysystem 30 from either the perimeter net system 12 or the trapping netsystem 14 in more detail. The removable connector 24 and connectors 32are preferably carabiners but may be any type of connection that allowsfor the easy removal and installation of the net 16. The net 16 has atleast one fastener 38 to connect the net 16 to the rope 26 of the ropeand pulley system 30. Preferably, the net 16 can be hung from a hangingmember 40 or other portion of a ceiling 42 of the enclosure 36sufficient to catch the hook 22. In the preferred embodiment, the net 16can hang over a shelving unit 44 so that customers can still approachany goods stored thereon.

FIG. 6 shows the flushing device 46. The flushing device comprises atelescoping arm 48 having a proximal end 50 and distal end 52. Theproximal end 50 has a handle 54 and the distal end 52 has a flusher 56.The flusher 56 can be any object that, when shaken or moved, createsnoise, movement, or both. The noise and/or movement can drive the animal60 from a hiding spot into one of the nets 16. For example, a plasticbag, when attached to the flushing device 46 and shaken, can drive abird from its roost into the open. It is preferred that the handlerusing the flushing device 46 keep the flushing device 46 at a 40 degreeangle. This particular angle was chosen because it keeps the flushingdevice 46 in the animal's 60 line of sight while also remaining out ofthe way of the capture attempt.

FIG. 7 shows the result of the disclosed system 10 and method. Theanimal 60 is driven into the net 16 by a handler using the flushingdevice 46. Once in the net 16, the animal 60 will become entrapped andunable to move. The net 16 does not harm the animal 60. Once entrappedin the net 16, a handler can remove the animal 60 from the enclosure 36into a safe habitat or, if the animal 60 is endangered, into thefederally mandated location. The perimeter net system 12 and trappingnet system 14 can then be uninstalled.

The present disclosure includes that contained in the appended claims,as well as that of the foregoing description. Although this inventionhas been described in its preferred form with a certain degree ofparticularity, it is understood that the present disclosure of thepreferred form has been made only by way of example and that numerouschanges in the details of construction and the combination andarrangement of parts may be resorted to without departing from thespirit and scope of the invention.

Now that the invention has been described,

What is claimed is:
 1. A method for relocating animals within an enclosed building comprising: installing an animal relocation system, the animal relocation system comprising: a perimeter net system comprising two perimeter nets, wherein each perimeter net comprises: a perimeter net, the perimeter net comprising a first perimeter net side and a second perimeter net side, wherein the first perimeter net side and the second perimeter net side each have a plurality of perimeter net connectors; a first telescoping pole and a second telescoping poles, each telescoping pole comprising: a first end and a second end, the first end having a hook; a removable connector; a rope and pully; and a cleat wherein the first telescoping pole rope and pully secures the first perimeter net side to the first telescoping pole through the first telescoping pole removable connector and the second telescoping pole rope and pully secures the second perimeter net side to the second telescoping pole through the second telescoping pole removable connector; and wherein the first telescoping pole hook is secured to a rafter of the enclosed building and the second telescoping pole hook is secured to a rafter of the enclosed building; and wherein the first perimeter net and second perimeter net are installed parallel to one another; a trapping net system comprising a trapping net, wherein the trapping net comprises: a trapping net, the trapping net comprising a first trapping net side and a second trapping net side, wherein the first trapping net side and the second trapping net side each have a plurality of trapping net connectors; a first telescoping pole and a second telescoping poles, each telescoping pole comprising: a first end and a second end, the first end having a hook; a removable connector; a rope and pully; and a cleat wherein the first telescoping pole rope and pully secures the first trapping net side to the first telescoping pole through the first telescoping pole removable connector and the second telescoping pole rope and pully secures the second trapping net side to the second telescoping pole through the second telescoping pole removable connector; and wherein the first telescoping pole hook is secured to a rafter of the enclosed building and the second telescoping pole hook is secured to a rafter of the enclosed building; and wherein the trapping net is installed at a ninety-degree-angle relative to the first perimeter net and second perimeter net; and a flushing device comprising a telescoping arm and a flusher; flushing the animal through the enclosed building wherein the flushing device chases the animal towards the perimeter net system and into the trapping net.
 2. The animal relocation method of claim 2 wherein the perimeter net system further comprises placing the perimeter net system within the enclosed building such that the square footage available for the animal to travel within the enclosed building is halved.
 3. The animal relocation method of claim 1 wherein the flushing device is used to guide the animal towards the animal relocation system by angling the flushing device to around a 40 degree angle and guiding the bird towards the animal relocation system.
 4. The animal relocation method of claim 1 wherein the perimeter net system and trapping net system are placed at a height above the floor of the enclosed building based on the species of animal being relocated.
 5. The animal relocation method of claim 1 wherein the perimeter net system and trapping net system use mist nets.
 6. An animal relocation system for relocating an animal in a structure, the system comprising a perimeter net; a trapping net; and a flushing device, wherein the flushing device is used to direct the animal into the trapping net.
 7. The animal relocation system of claim 7, further comprising: the perimeter net comprising: a net and a telescoping pole, the net attached to the telescoping pole and the telescoping pole attached to the structure.
 8. The animal relocation system of claim 6, wherein the structure is less than or equal to 75,000 square feet, the animal relocation system comprising: the perimeter net comprising a first net and a second net.
 9. The animal relocation system of claim 8, wherein the first net and second net are installed parallel to one another.
 10. The animal relocation system of claim 9, wherein the trapping net is installed at a ninety-degree angle to the perimeter net.
 11. The animal relocation system of claim 6, wherein the structure is greater than 75,000 square feet, the animal relocation system comprising: the trapping net comprising a first trapping net, a second trapping net, and a third trapping net.
 12. The animal relocation system of claim 11, wherein the first trapping net is installed perpendicular to the perimeter net.
 13. The animal relocation system of claim 11, wherein the second trapping net is installed parallel to the perimeter net.
 14. A method for relocating animals within a structure comprising: installing an animal relocation system, the animal relocation system comprising: a perimeter net system comprising two nets; a trapping net; and a flushing device; flushing the animal through the structure wherein the flushing device chases the animal towards the perimeter net system and into the trapping net.
 15. The method of claim 14 further comprising: installing the perimeter net system, such that the square footage available for the animal to travel within the structure is halved.
 16. The method of claim 14 further comprising: the flushing device further comprising an arm and a flusher.
 17. The method of claim 16 wherein the flushing device arm comprises a telescoping arm.
 18. The method of claim 16 wherein the flusher comprises a noise-maker.
 19. The method of claim 18 wherein the noise-maker comprises a plastic bag.
 20. The method of claim 14 further comprising: flushing further comprising angling the flushing device to around a 40 degree angle and guiding the bird towards the animal relocation system. 